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首页 > Journal of hepatology > Pleiotropic effects of methionine adenosyltransferases deregulation as determinants of...
Pleiotropic effects of methionine adenosyltransferases deregulation as determinants of liver cancer progression and prognosis.
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Downregulation of liver-specific MAT1A gene, encoding S-adenosylmethionine (SAM) synthesizing isozymes MATI/III, and upregulation of widely expressed MAT2A, encoding MATII isozyme, known as MAT1A:MAT2A switch, occurs in hepatocellular carcinoma (HCC). Being inhibited by its reaction product, MATII isoform upregulation cannot compensate for MATI/III decrease. Therefore, MAT1A:MAT2A switch contributes to decrease in SAM level in rodent and human hepatocarcinogenesis. SAM administration to carcinogen-treated rats prevents hepatocarcinogenesis, whereas MAT1A-KO mice, characterized by chronic SAM deficiency, exhibit macrovesicular steatosis, mononuclear cell infiltration in periportal areas, and HCC development. This review focuses upon the pleiotropic changes, induced by MAT1A/MAT2A switch, associated with HCC development. Epigenetic control of MATs expression occurs at transcriptional and post-transcriptional levels. In HCC cells, MAT1A/MAT2A switch is associated with global DNA hypomethylation, decrease in DNA repair, genomic instability, and signaling deregulation including c-MYC overexpression, rise in polyamine synthesis, upregulation of RAS/ERK, IKK/NF-kB, PI3K/AKT, and LKB1/AMPK axis. Furthermore, decrease in MAT1A expression and SAM levels results in increased HCC cell proliferation, cell survival, and microvascularization. All of these changes are reversed by SAM treatment in vivo or forced MAT1A overexpression or MAT2A inhibition in cultured HCC cells. In human HCC, MAT1A:MAT2A and MATI/III:MATII ratios correlate negatively with cell proliferation and genomic instability, and positively with apoptosis and global DNA methylation. This suggests that SAM decrease and MATs deregulation represent potential therapeutic targets for HCC. Finally, MATI/III:MATII ratio strongly predicts patients' survival length suggesting that MAT1A:MAT2A expression ratio is a putative prognostic marker for human HCC.

作者:Maddalena, Frau;Francesco, Feo;Rosa M, Pascale

来源:Journal of hepatology 2013 年 59卷 4期

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Pleiotropic effects of methionine adenosyltransferases deregulation as determinants of liver cancer progression and prognosis.
收藏
| 浏览:302
作者:
Maddalena, Frau;Francesco, Feo;Rosa M, Pascale
来源:
Journal of hepatology 2013 年 59卷 4期
标签:
5-methyltetrahydrofolate homocysteine methyltransferase 5’-Methylthioadenosine phosphorylase 5′-MTA 5′-methylthioadenosine AKT AMP activated protein kinase AMPK AP AP-1 APEX1 ASH ASO AUF1 AUrich RNA binding factor 1 B-cell cell/lymphoma 2 BAK BAX BCL2 BCL2 antagonist killer BCL2-associated x protein BHMT CBS CDC2 CDC28 protein kinase b1 CSK1 DN DUSP1 EGR-1 ERK Epigenetic regulation FAS FOXM1 GI GNMT GSH HCC HCC with better prognosis HCC with poorer prognosis HCCB HCCP HGF HIF-1α Hepatocarcinogenesis Hu antigen R HuR IKK JAK JUN Janus kinase LDL LKB1 MAFK MAPK MAT MDD MDM2 MTHF-HMT Methionine adenosyltransferase Mtap NASH NF-kB NOS ODC PCNA PFK-2 PH PHB1 PI3K PIAS1 PP2A PRMT5 Prognosis Progression RAS guanyl releasing protein 3 RASGRP3 RBP ROS S-adenosylhomocysteine S-adenosylmethionine S-phase kinase-associated protein 2 SAH SAH hydroxylase SAHH SAM SAM dacarboxylase SKP2 SL SP1 STAT1 Sdc Signal transduction Smr Sms Spp1 TNFα TSC1 TSC2 USP7 Ubiquitin-specific-processing protease 7 V-AKT murine thymoma viral oncogene homolog V-JUN avian sarcoma virus 17 oncogene homolog V-MAF avian musculoaponeurotic fibrosarcoma oncogene family, protein K V-MYB avian myeloblastosis viral oncogene homolog-like 2 VLDL XIAP activator protein-1 alcoholic steatohepatitis antisense oligonucleotide apurinic/apyrimidinic betaine-homocysteine methyltransferase c-Mybl2 cell division cycle 2 cystathionine β-synthase dual-specificity phosphatase 1 dysplastic nodule early growth response protein-1 endonuclease redox effector APE1/REF-1/APEX1 extracellular signal-regulated kinase forkhead box M1B genomic instability glycine N-methyltransferase hamartin hepatocellular carcinoma hepatocyte growth factor hypoxia-inducible factor 1, alpha subunit inhibitor of apoptosis, x-linked inhibitor of kappa light chain gene enhancer in B cells, kinase of low density lipoproteins mRNA-binding proteins mTORC2 mammalian target of rapamycin complex methionine adenosyltransferase methyl deficient diet mitogen-activated protein kinase mouse double minute 2 homolog nitric oxide synthase non-alcoholic steatohepatitis nuclear factor kB ornithine decarboxylase p90RSK partial hepatectomy phosphatadylinositol 3-kinase phosphofructokinase 2 prohibitin 1 proliferating cell nuclear antigen protein arginine methyltransferase 5 protein inhibitor of activated STAT1 protein phosphatase 2A reactive oxygen species reduced glutathione ribosomal protein S6 kinase polypeptide 2 secreted phosphoprotein 1 serine/threonine protein kinase 11 signal transducer and activator of transcription specificity protein 1 spermidine synthase spermine synthase surrounding liver tuberin tumor necrosis factor receptor superfamily, member 6 tumor necrosis factor α very low density lipoproteins
Downregulation of liver-specific MAT1A gene, encoding S-adenosylmethionine (SAM) synthesizing isozymes MATI/III, and upregulation of widely expressed MAT2A, encoding MATII isozyme, known as MAT1A:MAT2A switch, occurs in hepatocellular carcinoma (HCC). Being inhibited by its reaction product, MATII isoform upregulation cannot compensate for MATI/III decrease. Therefore, MAT1A:MAT2A switch contributes to decrease in SAM level in rodent and human hepatocarcinogenesis. SAM administration to carcinogen-treated rats prevents hepatocarcinogenesis, whereas MAT1A-KO mice, characterized by chronic SAM deficiency, exhibit macrovesicular steatosis, mononuclear cell infiltration in periportal areas, and HCC development. This review focuses upon the pleiotropic changes, induced by MAT1A/MAT2A switch, associated with HCC development. Epigenetic control of MATs expression occurs at transcriptional and post-transcriptional levels. In HCC cells, MAT1A/MAT2A switch is associated with global DNA hypomethylation, decrease in DNA repair, genomic instability, and signaling deregulation including c-MYC overexpression, rise in polyamine synthesis, upregulation of RAS/ERK, IKK/NF-kB, PI3K/AKT, and LKB1/AMPK axis. Furthermore, decrease in MAT1A expression and SAM levels results in increased HCC cell proliferation, cell survival, and microvascularization. All of these changes are reversed by SAM treatment in vivo or forced MAT1A overexpression or MAT2A inhibition in cultured HCC cells. In human HCC, MAT1A:MAT2A and MATI/III:MATII ratios correlate negatively with cell proliferation and genomic instability, and positively with apoptosis and global DNA methylation. This suggests that SAM decrease and MATs deregulation represent potential therapeutic targets for HCC. Finally, MATI/III:MATII ratio strongly predicts patients' survival length suggesting that MAT1A:MAT2A expression ratio is a putative prognostic marker for human HCC.

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